We know how important power is for living in today’s world and how to deliver it just right. Su-vastika’s UPS provides power backup to your home, office, or commercial establishment without interruption or blackout, keeping you always comfortable and connected. The Su-vastika’s UPS range is available in various power configurations to meet power backup needs according to your load requirement. Every UPS goes through strict quality control, i.e., Automated Testing Zig & comes with robust after-sales support and warranty. Su-vastika’s UPS allows us to live an unlimited energy lifestyle.
1. Economical UPS: (850VA-3500VA) 12V/24/36V
2. Premium UPS With ATC: (1350VA-5500VA) 12V/24V/36V
BULK STAGE:The battery bank is provided charging current. The voltage level of the battery will rise as it is charged. This step of charging the battery lasts until the voltage level reaches the bulk setting level.
ABSORPTION STAGE: The battery voltage is maintained at a bulk-setting level during this stage for a total of one hour. As the battery is charged to its maximum capacity, the charging current decreases.The battery voltage is maintained at the float setting level during the FLOAT STAGE, and the charging current is further decreased. During the float stage, loads linked to the battery can receive full current from the grid.
FLOAT STAGE: The battery voltage is maintained at the float setting level during the FLOAT STAGE, and the charging current is further decreased. During the float stage, loads linked to the battery can receive full current from the grid.
Before understanding the difference between these two options, it is important first to know what ATC is.
Automatic Temperature Control/ATC is a unique sensor added to the premium series of Su-vastika UPS. ATC allows our UPS to switch between 6-stage charging based on the outside temperature.
A battery gets adversely affected because of the temperature. ATC allows choosing the right charging stage whenever there is a temperature fluctuation. This is extremely important in places where temperature varies throughout the year. So, when the temperature increases, a generic battery might stop charging, but the Su-vastika premium UPS series with ATC will keep on charging. With this feature, on average, the battery’s lifespan is increased by up to 1 year.
Su-vastika premium UPS with ATC is designed for rough weather conditions. It has an ambient sensor and antenna placed right upon it. With advanced Automatic Temperature Compensation (ATC) built right into the microprocessor, Falcon Plus senses the temperature around it and then makes intelligent adjustments. For example, the temperature is high in summer or hotter regions, so the battery is charged to a lower voltage for the same power backup performance. This saves you some extra bucks while ensuring the battery doesn’t overheat, lose water, or get damaged.
Similarly, in winter or colder places, the temperature is lower, so the battery is charged to a higher boost voltage to ensure you get the required or expected amount of power backup. This makes our UPS with ATC a perfect choice for any climate; from the extremes of Northern America and Europe to the beating heat in Middle-East and South-East Asia, we are ready for a rough world.
Most inverters charges the battery in a flat, linear manner. But just like monotony upsets you, monotonous or flat charging deteriorates battery health. Ideally, 80% of a battery should be fast-charged, while the rest 20% should be charged slowly to avoid overheating and loss of water-topping. With its Generation Four microprocessor, Su-vastika Premium UPS with ATC carries out charging in six thoughtful stages for maximum efficiency in charging.
1. Smart AVR: Smart Automatic Voltage Regulation (AVR) feature handles voltage fluctuation by switching to the battery power whenever the voltage rises or drops beyond the safe voltage range.
2. Safe Charging: Safe Charging is the ability of a UPS to choose the appropriate stage of charging depending on different parameters.
3. Isolation Transformer: Isolation, also called galvanic isolation, implies that no direct path exists for the current to flow from the source to the load. An isolation transformer provides isolation between the electrical devices and the source powering these devices.
4. Bi-Directional Technology: A bi-directional technology is a technology that allows for two-way charging due to its ability of two-way conversion—from AC to DC and from DC to AC.
5. Safe Voltage Range: A safe voltage range is important to keep appliances safe during high voltage spikes. The problem is that there could be times when due to a high voltage spike, MCB in your house fails.
6. Advanced Protection with built-in MCB: MCB safeguards your appliances by handling short circuits. However, these can be slow and inefficient at protecting your appliances from damage.
7. Smart Battery Charging Mechanism: To maintain the life of a battery, it is important to charge it to 80% quickly, and then for the next 20%, charging has to be slow because the water is hot inside the battery when we are charging. However, most batteries charge in a linear fashion, which ultimately reduces the life of the batteries.
8. Ability to charge at Low Voltage: Typically, batteries require a 130V input to charge themselves, but this is not available at every time. Regions with frequent outages and low grid voltages may result in poor or no charging.
9. Automatic Bypass: Automatic Bypass is the ability of UPS to transfer the load to the mains electricity supply when there’s an internal fault or failure.
10. Fast Switching: Transfer time refers to the duration of time it takes the UPS to switch from one state to another. Traditional inverters have higher switching times. This means your appliances will reset during the changeover between mains to backup.
11. Better Charging & Discharging cycles: The battery sits at the heart of your inverter’s power backup functionality. Charging and Discharging cycles define the life of a battery, and making both these processes efficient is crucial.
12. Pure Sinewave Transform: Pure sine wave technology provides a clean, smooth, and regulated power supply similar to or superior in quality to grid power.
13. Backup Selection: Every battery is built to accept a certain maximum allowed charging speed. A Lithium-Ion battery requires 2-4 hours to get fully charged in a healthy way. Charging the batteries faster than these healthy limits reduces the battery’s life and increases maintenance costs and hassles.
14. Safe Discharging with LVC: Discharging is letting out energy to your appliance. With prolonged usage, battery life is reduced over time. A battery’s Low voltage cut-off (LVC) is the voltage level at which the charger disconnects the load from the battery. It is when the battery stops powering your fans, refrigerators, and other loads in the house.
15. Soft Start: Traditional inverters allow a sudden inrush of current. This can be harmful to your appliances
16. Generator Compatible: When the local grid fails, you are dependent on your Domestic Power Generators. Ordinary inverters are incompatible with such ACs due to their high fluctuations, which is harmful to sensitive devices.
17. Ability to handle overload & short circuit: When the ups once get overloaded will give 8 times retry before it shuts down. So now when a customer puts extra load which cannot be supported by the UPS, then it switches off immediately and keeps giving a warning. Then the customer has to reduce the load and go to the ups and reset the front switch, which is very uncomfortable for the customer because, at times, the whole house gets into darkness and the customer has to switch off the load and reach the UPS which is tough as it might be in one corner of the house or office.
18. LCD Display: LCD display is the display function of a UPS that shows key metrics to users to help them make an informed decision.
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